A cutting device includes a platen, a mounting portion, a first movement mechanism, a second movement mechanism, a detector, a processor, and a memory. The memory is configured to store computer-readable instructions that, when executed by the processor, instruct the processor to perform processes. The processes include acquiring cutting data, acquiring a contact position output by the detector when the cutting blade comes into contact with the holding member, and controlling the first movement mechanism in accordance with the cutting data to move the mounting portion and the holding member to a cutting start position. The processes include controlling the second movement mechanism, at the cutting start position, to move the mounting portion in the third direction to a cutting position set on the basis of the contact position, and controlling the first movement mechanism in accordance with the acquired cutting data to perform cutting processing.

A apparatus for processing sheets includes: a conveyance unit conveying a sheet; a processing unit provided with processing members processing the sheet along a conveyance direction, and a moving unit moving the processing members in a width direction; and a controller. When a processing position in the width direction to be processed by the processing members is different between a sheet conveyed ahead by the conveyance unit and a subsequent sheet, the controller processes the subsequent sheet by using a processing member having a minimum movement distance from the processing position of the sheet conveyed ahead among the processing members.

A cutting machine for cutting up meat strands whose cross section varies over a longitudinal extension into weight precise slices as fast as possible, and a method for slicing such meat strands. Two or more strands may be received adjacent to each other in a respective form tube and pushed against a separately adjustable stop plate, which is assigned to each form tube, independently from each other by a controlled longitudinal press plunger. The strands may be compressed in the longitudinal direction and a cross section of the form tubes may be reduced in a first transversal direction jointly and in a second transversal direction independently from each other. Thus, the respective meat strand may be transversally compressed to a constant cross section for slicing.

A cutting machine for cutting up meat strands whose cross section varies over a longitudinal extension into weight precise slices as fast as possible, and a method for slicing such meat strands. Two or more strands may be received adjacent to each other in a respective form tube and pushed against a separately adjustable stop plate, which is assigned to each form tube, independently from each other by a controlled longitudinal press plunger. The strands may be compressed in the longitudinal direction and a cross section of the form tubes may be reduced in a first transversal direction jointly and in a second transversal direction independently from each other. Thus, the respective meat strand may be transversally compressed to a constant cross section for slicing.

A cutting portion (cutting device) includes a fixed blade that extends in an intersecting direction (X axis direction) intersected with a transport direction transporting a roll paper, and a round blade that cuts the roll paper by relatively moving in the intersecting direction (X axis direction) with respect to the fixed blade in a state of being abutted on the fixed blade, in which the fixed blade extends over a portion of a range where the round blade relatively moves, and the round blade is in a separation state of being separated from the fixed blade in the transport direction when entering a region facing the fixed blade (cutting operation region) from a region not facing the fixed blade (standby region).

A cutting portion (cutting device) includes a fixed blade that extends in an intersecting direction (X axis direction) intersected with a transport direction transporting a roll paper, and a round blade that cuts the roll paper by relatively moving in the intersecting direction (X axis direction) with respect to the fixed blade in a state of being abutted on the fixed blade, in which the fixed blade extends over a portion of a range where the round blade relatively moves, and the round blade is in a separation state of being separated from the fixed blade in the transport direction when entering a region facing the fixed blade (cutting operation region) from a region not facing the fixed blade (standby region).

A method for checking the correct operation of a pre-cutting device in a plant for production of logs of paper material. The method includes realization and assembly of the pre-cutting device, with relative positioning and adjustment of said first and second element; activation of the pre-cutting device with the measurement of the vibrations emitted relating to the interaction between said first and said second element; storage of at least a value or of a set of values relative to the measurement of the vibrations corresponding to an optimal or reference operating configuration of the device; measuring, the values of the vibrations emitted by the interaction between said first and second element and comparison with the value or set of values related to the reference operating configuration, with the emission of a signal if there is a non-correspondence between the detected value and the reference value or set of reference values.

A method for checking the correct operation of a pre-cutting device in a plant for production of logs of paper material. The method includes realization and assembly of the pre-cutting device, with relative positioning and adjustment of said first and second element; activation of the pre-cutting device with the measurement of the vibrations emitted relating to the interaction between said first and said second element; storage of at least a value or of a set of values relative to the measurement of the vibrations corresponding to an optimal or reference operating configuration of the device; measuring, the values of the vibrations emitted by the interaction between said first and second element and comparison with the value or set of values related to the reference operating configuration, with the emission of a signal if there is a non-correspondence between the detected value and the reference value or set of reference values.

A machine for forming packing templates includes a infeed system that can feed multiple feeds of sheet material into the machine without repositioning the infeed system or forming creases or bends in the sheet material. The machine also includes a separation and cutting systems with one or more cutting tables and biased knives that cut the sheet material packaging templates. The machine also includes creasing roller(s) that forms creases in the sheet material. The machine also includes a system for reducing or eliminating the impact of irregularities in the sheet material.

A score knife positioner includes a carriage bracket having a locating tab for receiving a score knife assembly. Linear bearings are attached to the carriage bracket and are configured to engage with a pair of guide rails. The linear bearings are offset from one another and located so that score knife positioners on either side of a particular score knife positioner can be nested together. The carriage bracket has a width less than a width of the score knife assembly and allows adjacent score knife assemblies to be positioned so that there is less than one-half inch between score knifes. Score knife positioners can be moved to a desired location and locked into place via a carriage brake attached to the carriage bracket.